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Spatial database modeling for indoor navigation systems

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Treść / Zawartość
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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
For many years, cartographers are involved in designing GIS and navigation systems. Most GIS applications use the outdoor data. Increasingly, similar applications are used inside buildings. Therefore it is important to find the proper model of indoor spatial database. The development of indoor navigation systems should utilize advanced teleinformation, geoinformatics, geodetic and cartographical knowledge. The authors present the fundamental requirements for the indoor data model for navigation purposes. Presenting some of the solutions adopted in the world they emphasize that navigation applications require specific data to present the navigation routes in the right way. There is presented original solution for indoor data model created by authors on the basis of BISDM model. Its purpose is to expand the opportunities for use in indoor navigation.
Rocznik
Tom
Strony
49--63
Opis fizyczny
Bibliogr. 23 poz., tab., rys.
Twórcy
autor
  • Faculty of Geodesy and Cartography Warsaw University of Technology Warsaw, Poland
autor
  • Faculty of Geodesy and Cartography Warsaw University of Technology Warsaw, Poland
Bibliografia
  • [1] Autodesk (2003). Building Information Modeling in Practice. White Paper.
  • [2] Goodchild, M. F. (2007). Citizens as sensors: the world of volunteered geography. GeoJournal 69 (4), pp. 211–221
  • [3] Gotlib, D. (2011a). Methodology of cartographic presentation in mobile positioning and navigation systems. Prace naukowe Politechniki Warszawskiej - Geodezja, z.48.
  • [4] Gotlib, D. (2011b). Development of cartographic presentation methods in mobile systems, including indoor positioning systems, The Report on the work of the Department of Cartography, Wydział Geodezji i Kartografii, Politechnika Warszawska.
  • [5] Gotlib, D. & Marciniak, J. (2012). Cartographical aspects in the design of indoor navigation systems. Annual of Navigation no 19/2012, Polish Navigation Forum
  • [6] Isikdag, U., Zlatanova, S. & Underwood, J. (2013). A BIM-Oriented Model for supporting indoor navigation requirements, Computers, Environment and Urban Systems, Volume 4, September 2013, pp. 112-123.
  • [7] Lee, J. & Zlatanova, S. (2008). A 3D data model and topological analyses for emergency response in urban areas. In Zlatanova, Li (Eds.), Geospatial information technology for emergency response (ISPRS book series) (pp. 143-168), Taylor & Francis Group, London, UK.
  • [8] Li, Y. & He, Z. (2008). 3D Indoor Navigation: a Framework of Combining BIM with 3D GIS, Proceedings of the 44th ISOCARP Congress 2008.
  • [9] Mast, V. & Wolter, D. (2013). A Probabilistic Framework for Object Descriptions in Indoor Route Instructions. In Tenbrink, Stell, Galton, Wood (Eds.), Spatial Information Theory (pp.185-204), Springer International Publishing.
  • [10] Mautz, R. (2009). Overview of Current Indoor Positioning Systems. Geodesy and Cartography 35(1), pp. 18–22.
  • [11] Nossum, A. S. (2011). IndoorTubes A Novel Design for Indoor Maps. Cartography and Geographic Information Science, 38(2), pp. 193-201.
  • [12] OGC (2007). Candidate OpenGIS® CityGML Implementation Specification. (Open Geospatial Consortium, 2007-06-17).
  • [13] OGC (2010). OpenGIS® Discussion Paper: Requirements and Space-Event Modeling for Indoor Navigation. (Open Geospatial Consortium, 2010-12-11).
  • [14] PKN (2004). Polish Standard PN-70 B-01025 Graphic symbols on architectural and construction drawings, Polski Komitet Normalizacyjny
  • [15] Radoczky, V. (2007). How to design a pedestrian navigation system for indoor and outdoor environments, Location Based Services and TeleCartography 2007, Springer
  • [16] Serra, A., Dessì, T., Carboni, D., Popescu, V. & Atzori, L. (2010). Inertial Navigation Systems for User - Centric Indoor Applications, 2010 Networked and Electronic Media Summit, Barcelona
  • [17] Spassov, I. (2007). Algorithms for Map-Aided Autonomous Indoor Pedestria Positioning and Navigation (Doctoral Dissertation). EPFL Lausanne.
  • [18] Virtanen, A. & Koskinen, S. (2004). Towards Seamless Navigation, Proceedings of the MobileVenue'04, Athens, Greece. http://virtual.vtt.fi/virtual/noppa/mvenue/towards%20seamless%20navigation.pdf
  • [19] Bev-Al Communications (2012). Loctronix Demonstrates Latest Indoor Positioning Technology at Mobile World Congress, 28th of March 2012, http://www.geoplace.com/ME2/dirmod.asp?sid=&nm=&type=MultiPublishing&mod =PublishingTitles&mid=13B2F0D0AFA04476A2ACC02ED28A405F&tier=4&id=C6 90BA7F76E44B4B8D3136A70C0875A8
  • [20] ESRI (2011). http://support.esri.com/en/downloads/datamodel/detail/44
  • [21] Merritt, R. (2011). Nokia tweaks Bluetooth for indoor navigation, 29th of November 2011, http://www.eetimes.com/electronics-news/4230993/Nokia-tweaks-Bluetoothfor-indoor-navigation
  • [22] Nokia (2011). http://www.gsmarena.com/nokia_indoor_positioning_promoted_on_video_looks_seriously_cool-news-2525.php
  • [23] Volpe, J. (2011). Google Maps 6.0 hits Android, adds indoor navigation for retail and transit, 29th of November 2011, http://www.engadget.com/2011/11/29/googlemaps-6-0-hits-android-adds-indoor-navigation-for-retail/
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-c2266a28-a318-48b1-b2eb-10811be5bae3
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